In the figure below, find the following. (Let E, = 23.0 V, E, = 15.0 V, and R = 11.0 N.) 28.0 N E2 12.0 N (a) the current in each resistor A = А = I, = А (b) the power delivered to each resistor P1 W P2 W P3 W %D 2.
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- Consider the circuit shown in the figure, where 1 = 23.7 V,2 = 13.3 V and R = 12.0 Ω. (Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.)(a)What is the current (in A) in each resistor? I1= A, I2= A, I3= A. (b)What is the power (in W) delivered to each resistor? P1= W, P2= W, P3= W.(c)What is the total power (in W) supplied by both batteries? (d)What is the relationship between the total power supplied by the batteries and the power delivered to each resistor? The total power supplied by the batteries is equal to the sum of the power delivered to each resistor .The total power supplied by the batteries is greater than the sum of the power delivered to each resistor. The total power supplied by the batteries is less than the sum of the power delivered to each resistor.R1 = 20Ω, R2 = 12Ω, R3 = 4Ω, V1 = 9V, and V2 = 3V, find the current through V1 and V2Consider the circuit shown in the figure, where e1 = 23.7 V, e2 = 11.3 V, and R = 14.0 Ω. please don't use rounded intermediate values in calculation thank you. What is the current (in A) in each resistor? I1= I2= I3= (b) What is the power (in W) delivered to each resistor? P1= P2= P3= (c) What is the total power (in W) supplied by both batteries?
- For the circuit shown, find the total current flowing through the battery and the voltage across resistor R3 (Vbc). R₁ = 1700 2, R₂ = 3300, R3 = 5000 2 and = = 11.0 V. mA (1 mA = 10-3 A) I tot = Vbc = V Question Help: Read & a R3 dFind the current in the 22ohm resistor in the figure below.V=18V A = 5ohm B = 11ohm C = 6ohm D = 22ohm E = 4ohm Let V = 18 volts.For the circuit shown below left, find the magnitude and the direction of the current through each resistor and the power supplied by each battery, using the following values: R1 = 4.00 Ω, R2 = 6.00 Ω, R3 = 8.00 Ω, R4 = 6.00 Ω, R5 = 5.00 Ω, R6 = 10.0 Ω, R7 = 3.00 Ω, emf1 = 6.00 V, and emf2 = 12.0 V.
- An engineer built the circuit depicted in the figure. Assuming = 8.40 V and R = 4.90 Ω. What is the magnitud (mA) of the current in the 2.00 Ω resistor and what is the potential difference (in V) between points a and b (Vb − Va)?Consider the circuit shown below, where E1 = 12 V, E2 = 19 V, E2 = 7 V, R1 = 200 Ω, R2 = 300 Ω, R3 = 100 Ω, and R4 = 400 Ω. How much current must be flowing through the fourth resistor?For the circuit shown in the figure shown below, find the magnitude and the direction of the current through each resistor and the power supplied by each battery, using the following values: R1 = 4 ?, R2 = 6 ?, R3 = 8 ?, R4 = 6 ?, R5 = 5 ?, R6 = 10 ?, R7 = 3 ?, Vemf,1 = 6 V, and V emf,2 = 12 V.
- In the circuit below, if the battery in the circuit below is 5.9V, resistor R1=76.03ΩΩ, and resistor R2=77.61ΩΩ, what is the magnitude of the current that passes through R1? Give your answer in units of milli-Amps (mA).How much current flows thru a 6 Ω resistor in 4 minutes if it is connected to a 9V battery ?Consider an aluminum wire of diameter 0.600 mm and length 15.0 m. The resistivity of aluminum at 20.0°C is 2.82 × 10−8 Ω · m. (a) Find the resistance of this wire at 20.0°C. (b) If a 9.00 V battery is connected across the ends of the wire, find the current in the wire.